Mercurial > hg > truffle
diff src/share/vm/services/memoryPool.cpp @ 0:a61af66fc99e jdk7-b24
Initial load
author | duke |
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date | Sat, 01 Dec 2007 00:00:00 +0000 |
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children | c18cbe5936b8 |
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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/src/share/vm/services/memoryPool.cpp Sat Dec 01 00:00:00 2007 +0000 @@ -0,0 +1,249 @@ +/* + * Copyright 2003-2005 Sun Microsystems, Inc. All Rights Reserved. + * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. + * + * This code is free software; you can redistribute it and/or modify it + * under the terms of the GNU General Public License version 2 only, as + * published by the Free Software Foundation. + * + * This code is distributed in the hope that it will be useful, but WITHOUT + * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or + * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License + * version 2 for more details (a copy is included in the LICENSE file that + * accompanied this code). + * + * You should have received a copy of the GNU General Public License version + * 2 along with this work; if not, write to the Free Software Foundation, + * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. + * + * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara, + * CA 95054 USA or visit www.sun.com if you need additional information or + * have any questions. + * + */ + +# include "incls/_precompiled.incl" +# include "incls/_memoryPool.cpp.incl" + +MemoryPool::MemoryPool(const char* name, + PoolType type, + size_t init_size, + size_t max_size, + bool support_usage_threshold, + bool support_gc_threshold) { + _name = name; + _initial_size = init_size; + _max_size = max_size; + _memory_pool_obj = NULL; + _available_for_allocation = true; + _num_managers = 0; + _type = type; + + // initialize the max and init size of collection usage + _after_gc_usage = MemoryUsage(_initial_size, 0, 0, _max_size); + + _usage_sensor = NULL; + _gc_usage_sensor = NULL; + // usage threshold supports both high and low threshold + _usage_threshold = new ThresholdSupport(support_usage_threshold, support_usage_threshold); + // gc usage threshold supports only high threshold + _gc_usage_threshold = new ThresholdSupport(support_gc_threshold, support_gc_threshold); +} + +void MemoryPool::add_manager(MemoryManager* mgr) { + assert(_num_managers < MemoryPool::max_num_managers, "_num_managers exceeds the max"); + if (_num_managers < MemoryPool::max_num_managers) { + _managers[_num_managers] = mgr; + _num_managers++; + } +} + + +// Returns an instanceHandle of a MemoryPool object. +// It creates a MemoryPool instance when the first time +// this function is called. +instanceOop MemoryPool::get_memory_pool_instance(TRAPS) { + // Must do an acquire so as to force ordering of subsequent + // loads from anything _memory_pool_obj points to or implies. + instanceOop pool_obj = (instanceOop)OrderAccess::load_ptr_acquire(&_memory_pool_obj); + if (pool_obj == NULL) { + // It's ok for more than one thread to execute the code up to the locked region. + // Extra pool instances will just be gc'ed. + klassOop k = Management::sun_management_ManagementFactory_klass(CHECK_NULL); + instanceKlassHandle ik(THREAD, k); + + Handle pool_name = java_lang_String::create_from_str(_name, CHECK_NULL); + jlong usage_threshold_value = (_usage_threshold->is_high_threshold_supported() ? 0 : -1L); + jlong gc_usage_threshold_value = (_gc_usage_threshold->is_high_threshold_supported() ? 0 : -1L); + + JavaValue result(T_OBJECT); + JavaCallArguments args; + args.push_oop(pool_name); // Argument 1 + args.push_int((int) is_heap()); // Argument 2 + + symbolHandle method_name = vmSymbolHandles::createMemoryPool_name(); + symbolHandle signature = vmSymbolHandles::createMemoryPool_signature(); + + args.push_long(usage_threshold_value); // Argument 3 + args.push_long(gc_usage_threshold_value); // Argument 4 + + JavaCalls::call_static(&result, + ik, + method_name, + signature, + &args, + CHECK_NULL); + + instanceOop p = (instanceOop) result.get_jobject(); + instanceHandle pool(THREAD, p); + + { + // Get lock since another thread may have create the instance + MutexLocker ml(Management_lock); + + // Check if another thread has created the pool. We reload + // _memory_pool_obj here because some other thread may have + // initialized it while we were executing the code before the lock. + // + // The lock has done an acquire, so the load can't float above it, + // but we need to do a load_acquire as above. + pool_obj = (instanceOop)OrderAccess::load_ptr_acquire(&_memory_pool_obj); + if (pool_obj != NULL) { + return pool_obj; + } + + // Get the address of the object we created via call_special. + pool_obj = pool(); + + // Use store barrier to make sure the memory accesses associated + // with creating the pool are visible before publishing its address. + // The unlock will publish the store to _memory_pool_obj because + // it does a release first. + OrderAccess::release_store_ptr(&_memory_pool_obj, pool_obj); + } + } + + return pool_obj; +} + +inline static size_t get_max_value(size_t val1, size_t val2) { + return (val1 > val2 ? val1 : val2); +} + +void MemoryPool::record_peak_memory_usage() { + // Caller in JDK is responsible for synchronization - + // acquire the lock for this memory pool before calling VM + MemoryUsage usage = get_memory_usage(); + size_t peak_used = get_max_value(usage.used(), _peak_usage.used()); + size_t peak_committed = get_max_value(usage.committed(), _peak_usage.committed()); + size_t peak_max_size = get_max_value(usage.max_size(), _peak_usage.max_size()); + + _peak_usage = MemoryUsage(initial_size(), peak_used, peak_committed, peak_max_size); +} + +static void set_sensor_obj_at(SensorInfo** sensor_ptr, instanceHandle sh) { + assert(*sensor_ptr == NULL, "Should be called only once"); + SensorInfo* sensor = new SensorInfo(); + sensor->set_sensor(sh()); + *sensor_ptr = sensor; +} + +void MemoryPool::set_usage_sensor_obj(instanceHandle sh) { + set_sensor_obj_at(&_usage_sensor, sh); +} + +void MemoryPool::set_gc_usage_sensor_obj(instanceHandle sh) { + set_sensor_obj_at(&_gc_usage_sensor, sh); +} + +void MemoryPool::oops_do(OopClosure* f) { + f->do_oop((oop*) &_memory_pool_obj); + if (_usage_sensor != NULL) { + _usage_sensor->oops_do(f); + } + if (_gc_usage_sensor != NULL) { + _gc_usage_sensor->oops_do(f); + } +} + +ContiguousSpacePool::ContiguousSpacePool(ContiguousSpace* space, + const char* name, + PoolType type, + size_t max_size, + bool support_usage_threshold) : + CollectedMemoryPool(name, type, space->capacity(), max_size, + support_usage_threshold), _space(space) { +} + +MemoryUsage ContiguousSpacePool::get_memory_usage() { + size_t maxSize = (available_for_allocation() ? max_size() : 0); + size_t used = used_in_bytes(); + size_t committed = _space->capacity(); + + return MemoryUsage(initial_size(), used, committed, maxSize); +} + +SurvivorContiguousSpacePool::SurvivorContiguousSpacePool(DefNewGeneration* gen, + const char* name, + PoolType type, + size_t max_size, + bool support_usage_threshold) : + CollectedMemoryPool(name, type, gen->from()->capacity(), max_size, + support_usage_threshold), _gen(gen) { +} + +MemoryUsage SurvivorContiguousSpacePool::get_memory_usage() { + size_t maxSize = (available_for_allocation() ? max_size() : 0); + size_t used = used_in_bytes(); + size_t committed = committed_in_bytes(); + + return MemoryUsage(initial_size(), used, committed, maxSize); +} + +#ifndef SERIALGC +CompactibleFreeListSpacePool::CompactibleFreeListSpacePool(CompactibleFreeListSpace* space, + const char* name, + PoolType type, + size_t max_size, + bool support_usage_threshold) : + CollectedMemoryPool(name, type, space->capacity(), max_size, + support_usage_threshold), _space(space) { +} + +MemoryUsage CompactibleFreeListSpacePool::get_memory_usage() { + size_t maxSize = (available_for_allocation() ? max_size() : 0); + size_t used = used_in_bytes(); + size_t committed = _space->capacity(); + + return MemoryUsage(initial_size(), used, committed, maxSize); +} +#endif // SERIALGC + +GenerationPool::GenerationPool(Generation* gen, + const char* name, + PoolType type, + bool support_usage_threshold) : + CollectedMemoryPool(name, type, gen->capacity(), gen->max_capacity(), + support_usage_threshold), _gen(gen) { +} + +MemoryUsage GenerationPool::get_memory_usage() { + size_t used = used_in_bytes(); + size_t committed = _gen->capacity(); + size_t maxSize = (available_for_allocation() ? max_size() : 0); + + return MemoryUsage(initial_size(), used, committed, maxSize); +} + +CodeHeapPool::CodeHeapPool(CodeHeap* codeHeap, const char* name, bool support_usage_threshold) : + MemoryPool(name, NonHeap, codeHeap->capacity(), codeHeap->max_capacity(), + support_usage_threshold, false), _codeHeap(codeHeap) { +} + +MemoryUsage CodeHeapPool::get_memory_usage() { + size_t used = used_in_bytes(); + size_t committed = _codeHeap->capacity(); + size_t maxSize = (available_for_allocation() ? max_size() : 0); + + return MemoryUsage(initial_size(), used, committed, maxSize); +}